From Blueprint to Reality: Modeling and Applying Putnam's Social Capital Theory with LLM-based Multi-agent Simulations
Abstract
Putnam's Social Capital Theory is a foundational framework for collective action and community prosperity.
However, traditional empirical methods face practical limits on control and replication.
Meanwhile, LLM-based social simulations are typically behavior-driven and lack theory-aligned environments for modeling Putnam's core propositions.
To address these gaps, we introduce SocaSim, an LLM-based multi-agent simulation framework to study Putnam's Social Capital Theory from theoretical blueprint to simulated reality.
Specifically, we build an environment integrating social network evolution, trust dynamics, and norm propagation, where agents engage in repeated collective-action experiments, and then apply the three dimensions to analyze adaptation challenges in smart elderly care.
Our simulations reproduce Putnam's macro-level patterns and exhibit strong human-agent alignment at the group level.
Unlike traditional methods, SocaSim traces micro-level causal pathways of social network, trust, and norms via round-by-round simulations and counterfactual interventions, enabling process-level interpretability.
Taken together, these capabilities establish a research paradigm that leverages LLM agents to bridge social science and computer science.
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